Spray foam insulated pipe

ABSTRACT

A method and apparatus for applying a spray plastic foam insulation to a pipe wherein the pipe is cleaned and preheated to at least 90*F. prior to spray application of foam. The cleaning and preheating assist in the foaming process and enhance the physical bond of the initial layer of sprayed foam to the pipe. A bitumastic and kraft paper vapor-barrier subsequently is applied thereon to the exterior surface of the insulation.

United States Patent 1 Bauer et al.

SPRAY FOAM INSULATED PIPE Inventors: Richard H. Bauer, West Caldwell; Richard Kilpert, Berkeley Heights,

both of NJ.

Assignee: Esso Research and Engineering Company Filed: Mar. 1, 1971 Appl. No.: 1 19,920

Related U.S. Application Data Division ofSer. No. 486,591, Aug. 27, 1965, Pat. No. 3,480,493, which is a continuation-in-part of Ser. No. 420,083, Dec. 21, 1964.

U.S. Cl. ..138/143, l38/l4l, 138/149,

138/l09 Int. Cl ..F16l 9/14 Field of Search ..138/l4l, 143, 145,

138/146, 149, 109, DIG. 9

[ 51 May 8, 1973 [56] References Cited UNITED STATES PATENTS 1,988,628 l/l935 McDonald ..l38/l49 X 2,602,764 7/1952 Billingham..." ....l38/DIG. 9 2,857,931 10/1958 Lawton ..l38/l49 X 3,007,203 ll/l96l Ammons ....l38/DlG. 9 3,420,277 l/l969 Ceintrey..... .....l38/l43 3,425,455 2/1969 Kilpert ..l38/l46 X Primary Examiner-Herbert F. Ross Attarney--Manahan & Wright and Donald F. Wohlers [57] ABSTRACT A method and apparatus for applying a spray plastic foam insulation to a pipe wherein the pipe is cleaned and preheated to at least 90F. prior to spray application of foam. The cleaning and preheating assist in the foaming process and enhance the physical bond of the initial layer of sprayed foam to the pipe. A bitumastic and kraft paper vapor-barrier subsequently is applied thereon to the exterior surface of the insulation.

1 Claim, 4 Drawing Figures Patented May 8, 1973 2. Sheets-Sheet l v ulwgjfl M 2055 uzma; Esau RICHARD H. BAUER RICHA K|LPERT Inventors i 'torncy 5mg 2 2 o. & g U4-$ @HU 0:22am mzfiz I. I I: L wziflom BED m.

Patented May 8, 1973 3,731,710

2 Sheets-Sheet 2 ICHARD H.8AUER RICHARD KILPERT II'IVGMOr:

Attorney SPRAY FOAM INSULATED PIPE This application is a division of US. Ser. No. 486,591 filed Aug. 27, 1965 and issued Nov. 25, 1969, as U.S. Pat. No. 3,480,493, which was a continuationin-part of applicants prior co-pending application Ser. No. 420,083 filed Dec. 21, 1964.

This invention relates to insulated pipes or conduits in general and in particular to improved methods and apparatus for making and joining sections of insulated pipe which employ as insulation one of the many commercially available plastic foam materials such as polyurethane.

While it has been suggested that a pipe may be pro vided with a high efficiency insulation cover by the application of a pre-molded polyurethane foam material thereabout, such technique is comparatively costly. The present invention is specifically directed toward an improved and more economical method of providing insulation of this type to a pipe. To this end, a novel process has been developed for the spray application of a foamable insulation material to the surface of the pipe as the pipe is advanced and rotated past the spraying nozzle. Preferably, the noninsulated pipe is heated in advance of the spray application of the foamable insulation, which heat serves to accelerate and complete the foaming process occurring upon the deposition of the sprayed foamable mixture upon the pipe. Thereafter in the novel method of the invention, the pipe so insulated is continued to be advanced and rotated while a subsequent water and vapor barrier in the form of a mastic or other type coating and paper wrapping is applied.

In the spray application of insulation in accordance with the invention to a single pipe length, suitable means are provided to sense the leading and trailing ends of the pipe so that the application of the insulation thereto is automatically omitted in the areas adjacent the pipe ends. The invention also provides for the sequential spray coating of pipes with insulation, and for this purpose employs a novel means for temporarily coupling the ends of adjacent pipe sections. After the insulation of each pipe section, a subsequent two-stage application of bituminous mastic is applied by spraying while the insulation is still in a slightly tacky state. It has been found that the early application of the mastic coating at this stage produces a thicker surface skin formation on the insulation thereby increasing its durability and resistance to moisture absorption and the bond between the insulation and mastic. Another aspect of the present invention concerns a novel process for insulating the noninsulated end joint between two insulated conduits after they have been joined in abutting fashion.

Accordingly, it is the principal object of the invention to provide an improved method of applying insulation to a conduit.

Another object of the invention is to provide an insulated conduit which has improved thermal efficiency along its length as well as in the area adjacent the pipe joints.

Another object of the invention is to provide an improved foamed pipe insulation having a thickened surface skin.

Another object of the invention is to provide a novel method for insulating the welded end joint between adjacent sections ofinsulated pipes.

Another object of the invention is to provide an improved coupling means for temporarily securing a plurality of pipe sections in end-to-end relationship.

These and other objects and advantages of the invention will become apparent and the invention will be fully understood from the following description and drawings in which:

FIG. 1 is a schematic flow diagram of the various steps of the invention;

FIG. 2 is a cross-sectional view showing the manner in which the pipe joint is insulated in accordance with another aspect of the invention;

FIG. 3 is a cross-sectional view of adjacent pipe ends as they would be temporarily coupled during the insulation coating process; and

FIG. 4 is a cross-sectional view of an insulated pipe in accordance with the invention taken along line 44 of FIG. 2.

It will be understood that the drawings illustrate merely a preferred embodiment of the invention and that other embodiments are contemplated within the scope of the claims as set forth.

Referring to FIG. 1 in particular, an uninsulated pipe 10 is advanced by conveyor means (not shown) in the direction of the dotted arrows through a cleaning and descaling station 14. After the temperature of the cleaned, advancing pipe 10 is increased by a heater 16, it enters a chamber 20 for the spray application of a foamable insulation material such as polyurethane. While for the purposes of convenience the invention has been described in connection with the spray application of a polyurethane foam, the invention is novel irrespective of the specific type of foam insulation applied. Obviously, insulation such as foamed glass, foamed polystyrene or others could be employed without departing from the spirit of the invention. Those skilled in the art will readily appreciate that chamber 20 may include any suitable means for spraying and mixing a two-part foamable plastic wherein the foaming reaction starts within a relatively few seconds after foamable components are mixed and sprayed. Prior to passage of the pipe 10 through the heater 16 and spraying chamber 20, a pipe rotating means 18 is effective to impart a rotational and lateral movement to the pipe as it is advanced throughout the remainder of the processing steps. In this way the buildup of insulation material upon the pipe's exterior in the chamber 20 is uniformly distributed and progressively applied to the pipe periphery. In one form of the invention, the pipe is rotated at 20 rpm and the width of the area being sprayed is sufficiently wide relative to the speed of the lateral advance of the pipe so that any one point on the pipe surface is exposed to four passages through the spray area. lfa two inch thickness of foamed insulation is desired, a spray density sufficient to deposit a one-half inch thickness of insulation for each revolution thereof would be selected. In one form of the invention, a butane-fired ring-shaped heater has been employed. However, passage of steam within the pipe interior has been employed to equal advantage to raise the surface temperature of the pipe to to F., a preferred temperature for completion of the polyurethane foaming process. If service conditions warrant, a preliminary corrosion protective coating may be applied prior to the application of the foam insulation.

Such a coating might be desirable when low temperature fluids are conveyed in the pipeline and the likelihood of moisture condensation is great or to guard against any unanticipated puncture of the exterior vapor barrier that may occur during installation or service.

Thereafter as the pipe section continues to advance, it is processed by a water and vapor barrier application means indicated generally at 22. The means 22 includes a primer spray section 24 and a bitumastic spray section 26. A minimum of time is allowed to elapse between the the pipes passage from the end of the spray foam chamber and the first application of mastic primer spray at section 24. It has been found that it is preferable to apply the spray 24 while the exterior of the insulation is still in a slightly tacky or semicured state which has the beneficial effect of increasing the thickness of the surface skin. In this way, the insulation is made more durable and resistant to moisture absorption. The consistency of the primer spray 24 is also preferably chosen to be more fluid than the spray applied at station 26 so that small voids in the insulation surface are completely sealed and the exterior surface smoothed for the subsequently applied heavier bitumastic coating. A wrapping station indicated at 28 is effective to apply a further vapor barrier layer to the still tacky bitumastic applied at the preceding station 26. The vapor barrier applied at station 28 is preferably a spirally wrapped kraft paper. It will be understood that for the purpose of the invention many different types of water and vapor barrier materials may be employed and they need not necessarily be applied in this specific fashion.

In FIG. 1, the insulated pipe section is shown in its completed form as element 12. Operating in conjunction with the means 20, 22 and 28 is a control means shown schematically at 30 which is effective to start and stop the application of insulation, primer spray, bitumastic spray, and wrapping paper at the appropriate points adjacent the ends of each pipe section. It will be understood that the control means 30 includes suitable sensing means which may be mechanical, optical or electrical for determining the position of the ends of each pipe section so that insulation is not unnecessarily applied to the area of the pipe which will be subsequently welded. While an excess of insulation could be applied to the pipe ends and be subsequently removed in the area of the weld, such removal would operate to rupture the closed cell structure of the insulation in its sprayed form in this area and would therefore increase the possibility of water penetrating the insulation.

Referring to FIG. 4, the insulated pipe in cross-section is illustrated. The expanded foam insulation 32 is of approximately two inch thickness as previously related. The primer and water/vapor barrier coating applied by means 24 and 26 is indicated at 34. The paper applied at wrapping station 28 is indicated at 36.

In FIG. 2, a pair of adjacent pipe sections 10-10 are shown welded at 38. It should be noted that the ends of the sprayed insulation layers 32 terminate in rounded end portions 40 at a short distance displaced from the pipe end. In insulating the welded'pipe joint, a sheet of substantially rigid material 42, such as galvanized iron, is wrapped in a cylindrical form about the outside diameter of the pipe insulation and secured thereto by a pair of metal straps 44. The cylindrical sheet 42 includes at least one aperture 46 through which sufficient fo'amable polyurethane material 48 is poured or otherwise introduced so that the entire interior void area of the joint is filled. After the liquid polyurethane 48 has foamed and set within the interior void, the aperture 46, cylindrical sheet 42, and the ends of the sheet 42 may be coated with a suitable mastic material (not shown) to insure a water/vapor barrier across this joint area. It will be seen that the pipe joint now includes a continuous insulation cover of substantially the same thickness as the body portion of the adjacent pipe. The galvanized sheet 42 may be left in the position shown so that a complete moisture barrier is present along the entire length of the pipe sections. Alternatively, the sheet 42 may be removed and a conventional vapor barrier applied. Should this latter procedure be used, it is desirable to apply a nonadhering type coating to the inside surface of sheet 42 to prevent rupture of the closed cell structure of the foam and allow reuse of the sheet without a cleaning step.

Referring to FIG. 3, the coupling that may be employed for joining adjacent pipe sections l010 during their passage through the steps illustrated in FIG. 1 is shown. The coupling body, generally indicated at 50, includes a male half 52 and a female half 54.'Each half includes many similar elements which have been designated with like numerals. Each half includes an elongated hollow tube 56 which carries circular plate 58 secured to an end thereof. A resilient ring member 60 is disposed adjacent the plate 58 and held in contact therewith by a compression plate 64. A threaded bolt 62 disposed at the bottom end of the tube 56 passes through a clearance aperture in plate 58 and threadably engages the central portion of plate 64. A shield member 66 is secured to a central portion of each of the tubes 56. The shield 66 stabilizes the outer ends of each coupling half and prevents entry of foreign matter into the pipe end. One of the tubes 56 has an outside diameter slightly smaller than the inside diameter of the adjacent tube 56 so that it may be inserted therein. One tube is provided with a pair of projecting studs 68 which engage and lock into a conventional type bayonet slot 70 in the other tube. In use, each half of the coupling 50 is inserted into the respective ends of the pipe sections to be joined and the bolts 62 are tightened by a suitable tool (not shown). inserted into the interior of the tube 56. Tightening of the bolts 62 accomplishes the axial displacement of the compression plates 64 toward the plates 58 to expand the outside diameter of rings 60 to engage the pipe inside diameter. With each half of the coupling 50 thus secured to its respective pipe end, the pipe sections may be made fast by a small axial movement and angular rotation of one with respect to the other to lock the studs 68 with the slot 70. In this way the novel coupling of the invention provides for the easy and quick joining of the pipe sections prior to advance through the insulating steps of FIG. 1. After the insulation process has been completed, each of the couplings may be quickly disassembled to permit stocking of the individual pipe sections and reused indefinitely.

While a-specific embodiment of the invention has been shown and described in detail to illustrate the application of the inventive principles, it will be unsaid member and comprisingaplurality of sprayed derstood that the invention may be embodied otherlayers of said polyurethane foam, the outermost Wise without departing from Such p p one of said layers of polyurethane foam having a what is claimed l thickened exterior surface of greater density than i sulated compnslng: 5 that of the interior ones of said layers; an metamc member of predetermmed c. an outer moisture barrier of bituminous mastic length;

b. a tubular sleeve of polyurethane foam insulation surrounding said metallic member and having a length shorter than that of said member so as to 10 provide exposed metallic portions at each end of said member, said sleeve being securely bonded to material completely enclosing said thickened exterior surface; and

d. a paper wrapping on the exterior of said outer moisture barrier. 

